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Google Professional-Cloud-Network-Engineer Exam With Confidence Using Practice Dumps

Exam Code:
Professional-Cloud-Network-Engineer
Exam Name:
Google Cloud Certified - Professional Cloud Network Engineer
Certification:
Google Cloud Platform
Vendor:
Google
Questions:
233
Last Updated:
Dec 10, 2025
Exam Status:
Stable
Google Professional-Cloud-Network-Engineer

Professional-Cloud-Network-Engineer: Google Cloud Platform Exam 2025 Study Guide Pdf and Test Engine

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Google Cloud Certified - Professional Cloud Network Engineer Questions and Answers

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Question 1

Question:

You are troubleshooting connectivity issues between Google Cloud and a public SaaS provider. Connectivity between the two environments is through the public internet. Your users are reporting intermittent connection errors when using TCP to connect; however, ICMP tests show no failures. According to users, errors occur around the same time every day. You want to troubleshoot and gather information by using Google Cloud tools that are most likely to provide insights into what is occurring within Google Cloud. What should you do?

Options:

A.

Create a Connectivity Test by using TCP, the source IP address of your test VM, and the destination IP address of the public SaaS provider. Review the live data plane analysis and take the next steps based on the test results.

B.

Enable and review Cloud Logging on your Cloud NAT gateway. Look for logs with errors matching the destination IP address of the public SaaS provider.

C.

Enable the Firewall insights API. Set the deny rule insights observation period to one day. Review the insights to assure there are no firewall rules denying traffic.

D.

Enable and review Cloud Logging for Cloud Armor. Look for logs with errors matching the destination IP address of the public SaaS provider.

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Question 2

Your company just completed the acquisition of Altostrat (a current GCP customer). Each company has a separate organization in GCP and has implemented a custom DNS solution. Each organization will retain its current domain and host names until after a full transition and architectural review is done in one year. These are the assumptions for both GCP environments.

• Each organization has enabled full connectivity between all of its projects by using Shared VPC.

• Both organizations strictly use the 10.0.0.0/8 address space for their instances, except for bastion hosts (for accessing the instances) and load balancers for serving web traffic.

• There are no prefix overlaps between the two organizations.

• Both organizations already have firewall rules that allow all inbound and outbound traffic from the 10.0.0.0/8 address space.

• Neither organization has Interconnects to their on-premises environment.

You want to integrate networking and DNS infrastructure of both organizations as quickly as possible and with minimal downtime.

Which two steps should you take? (Choose two.)

Options:

A.

Provision Cloud Interconnect to connect both organizations together.

B.

Set up some variant of DNS forwarding and zone transfers in each organization.

C.

Connect VPCs in both organizations using Cloud VPN together with Cloud Router.

D.

Use Cloud DNS to create A records of all VMs and resources across all projects in both organizations.

E.

Create a third organization with a new host project, and attach all projects from your company and Altostrat to it using shared VPC.

Question 3

You are designing a hub-and-spoke network architecture for your company’s cloud-based environment. You need to make sure that all spokes are peered with the hub. The spokes must use the hub's virtual appliance for internet access.

The virtual appliance is configured in high-availability mode with two instances using an internal load balancer with IP address 10.0.0.5. What should you do?

Options:

A.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub.

Import the custom routes in the spokes.

B.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub. Import the custom routes in the spokes.

Delete the default internet gateway route of the spokes.

C.

Create two default routes in the hub VPC that point to the next hop instances of the virtual appliances.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Export the custom routes in the hub. Import the custom routes in the spokes.

D.

Create a default route in the hub VPC that points to IP address 10.0.0.5.

Delete the default internet gateway route in the hub VPC, and create a new higher-priority route that is tagged only to the appliances with a next hop of the default internet gateway.

Create a new route in the spoke VPC that points to IP address 10.0.0.5.

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